Cynthia J. Curry scite author profile

Noonan syndrome is a developmental disorder characterized by short stature, facial dysmorphia, congenital heart defects and skeletal anomalies. Increased RAS-mitogen-activated protein kinase (MAPK) signaling due to PTPN11 and KRAS mutations causes 50% of cases of Noonan syndrome. Here, we report that 22 of 129 individuals with Noonan syndrome without PTPN11 or KRAS mutation have missense mutations in SOS1, which encodes a RAS-specific guanine nucleotide exchange factor. SOS1 mutations cluster at codons encoding residues implicated in the maintenance of SOS1 in its autoinhibited form. In addition, ectopic expression of two Noonan syndrome-associated mutants induces enhanced RAS and ERK activation. The phenotype associated with SOS1 defects lies within the Noonan syndrome spectrum but is distinctive, with a high prevalence of ectodermal abnormalities but generally normal development and linear growth. Our findings implicate gain-of-function mutations in a RAS guanine nucleotide exchange factor in disease for the first time and define a new mechanism by which upregulation of the RAS pathway can profoundly change human development.

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Evolution of Human-Specific Neural SRGAP2 Genes by Incomplete Segmental Duplication

Dennis

Nuttle

Sudmant

et al. 2012

Cell

350

370

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SUMMARY Gene duplication is an important source of phenotypic change and adaptive evolution. We use a novel genomic approach to identify highly identical sequence missing from the reference genome, confirming the cortical development gene Slit-Robo Rho GTPase activating protein 2 (SRGAP2) duplicated three times in humans. We show that the promoter and first nine exons of SRGAP2 duplicated from 1q32.1 (SRGAP2A) to 1q21.1 (SRGAP2B) ~3.4 million years ago (mya). Two larger duplications later copied SRGAP2B to chromosome 1p12 (SRGAP2C) and to proximal 1q21.1 (SRGAP2D), ~2.4 and ~1 mya, respectively. Sequence and expression analysis shows SRGAP2C is the most likely duplicate to encode a functional protein and among the most fixed human-specific duplicate genes. Our data suggest a mechanism where incomplete duplication created a novel function —at birth, antagonizing parental SRGAP2 function 2–3 mya a time corresponding to the transition from Australopithecus to Homo and the beginning of neocortex expansion.

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A Drosophila Genetic Resource of Mutants to Study Mechanisms Underlying Human Genetic Diseases

Yamamoto

Jaiswal

Charng

et al. 2014

Cell

340

367

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Summary Invertebrate model systems are powerful tools for studying human disease owing to their genetic tractability and ease of screening. We conducted a mosaic genetic screen of lethal mutations on the Drosophila X-chromosome to identify genes required for the development, function, and maintenance of the nervous system. We identified 165 genes, most of whose function has not been studied in vivo. In parallel, we investigated rare variant alleles in 1,929 human exomes from families with unsolved Mendelian disease. Genes that are essential in flies and have multiple human homologs were found to be likely to be associated with human diseases. Merging the human datasets with the fly genes allowed us to identify disease-associated mutations in six families and to provide insights into microcephaly associated with brain dysgenesis. This bidirectional synergism between fly genetics and human genomics facilitates the functional annotation of evolutionarily conserved genes involved in human health.

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WNT1 Mutations in Early-Onset Osteoporosis and Osteogenesis Imperfecta

et al. 2013

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SUMMARY This report identifies human skeletal diseases associated with mutations in WNT1. In ten family members with dominantly inherited early-onset osteoporosis, a heterozygous missense variation c.652T>G (p.Cys218Gly) in WNT1 segregated with the disease, and a homozygous nonsense mutation (c.884C>A, p.Ser295*) was identified in two siblings with recessive osteogenesis imperfecta. In vitro, aberrant forms of WNT1 protein showed impaired capacity to induce canonical WNT signaling, their target genes, and mineralization. Wnt1 was clearly expressed in bone marrow, especially in B cell lineage and hematopoietic progenitors; lineage tracing identified expression in a subset of osteocytes, suggesting altered cross-talk of WNT signaling between hematopoietic and osteoblastic lineage cells in these diseases.

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Mutations in the Pericentrin ( PCNT ) Gene Cause Primordial Dwarfism

Rauch

Thiel

Schindler

et al. 2008

Science

370

329

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Fundamental processes influencing human growth can be revealed by studying extreme short stature. Using genetic linkage analysis, we find that biallelic loss-of-function mutations in the centrosomal pericentrin (PCNT) gene on chromosome 21q22.3 cause microcephalic osteodysplastic primordial dwarfism type II (MOPD II) in 25 patients. Adults with this rare inherited condition have an average height of 100 centimeters and a brain size comparable to that of a 3-month-old baby, but are of near-normal intelligence. Absence of PCNT results in disorganized mitotic spindles and missegregation of chromosomes. Mutations in related genes are known to cause primary microcephaly (MCPH1, CDK5RAP2, ASPM, and CENPJ).

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Cynthia J. Curry

Gain-of-function SOS1 mutations cause a distinctive form of Noonan syndrome

Evolution of Human-Specific Neural SRGAP2 Genes by Incomplete Segmental Duplication

A Drosophila Genetic Resource of Mutants to Study Mechanisms Underlying Human Genetic Diseases

WNT1 Mutations in Early-Onset Osteoporosis and Osteogenesis Imperfecta

Mutations in the Pericentrin ( PCNT ) Gene Cause Primordial Dwarfism

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